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09.02.2021 | Original Article

Novel partners of USP6 gene in a spectrum of bone and soft tissue lesions

verfasst von: Mélanie Legrand, Marie-Lise Jourdan, Anne Tallet, Christine Collin, Virginie Audard, Frédérique Larousserie, Sébastien Aubert, Anne Gomez-Brouchet, Corinne Bouvier, Gonzague de Pinieux

Erschienen in: Virchows Archiv | Ausgabe 1/2021

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Abstract

Nodular fasciitis, primary aneurysmal bone cyst, myositis ossificans, and their related lesions are benign tumors that share common histological features and a chromosomal rearrangement involving the ubiquitin-specific peptidase 6 (USP6) gene. The identification of an increasing number of new partners implicated in USP6 rearrangements demonstrates a complex tumorogenesis of this tumor spectrum. In this study on a series of 77 tumors (28 nodular fasciitis, 42 aneurysmal bone cysts, and 7 myositis ossificans) from the database of the French Sarcoma Group, we describe 7 new partners of the USP6 gene. For this purpose, rearrangements were first researched by multiplexed RT-qPCRs in the entire population. A targeted RNA sequencing was then used on samples selected according to a high USP6-transcription level expression estimated by RT-qPCR. Thanks to this multistep approach, besides the common USP6 fusions observed, we detected novel USP6 partners: PDLIM7 and MYL12A in nodular fasciitis and TPM4, DDX17, GTF2I, KLF3, and MEF2A in aneurysmal bone cysts. In order to try to bring to light the role played by the recently identified USP6 partners in this lesional spectrum, their functions are discussed. Taking into account that a traumatic participation has long been mentioned in the histogenesis of most of these lesions and because of their morphological resemblance to organizing granulation reparative tissue or callus, a focus is placed on their relationship with tissue remodeling and, to a lesser extent, with bone metabolism.

Oliveira AM, Wang J, Wang WL (2020) Nodular fasciitis. In: Lokuhetty D, White VA, Cree IA (eds) World Health Organization Classification of Tumours of Soft Tissue and Bone, 5th edn. International Agency for Research on Cancer, Lyon, pp 49–50

Oliveira AM, Rosenberg AE (2020) Myositis ossificans and fibro-osseous pseudotumour of digits. In: Lokuhetty D, White VA, Cree IA (eds) WHO Classification of Tumours of Soft Tissue and Bone, 5th edn. International Agency for Research on Cancer, Lyon, pp 53–54

Agaram NP, Bredella MA (2020) Aneurysmal bone cyst. In: Lokuhetty D, White VA, Cree IA (eds) World Health Organization Classification of Tumours of Soft Tissue and Bone, 5th edn. International Agency for Research on Cancer, Lyon, pp 437–439

Panoutsakopoulos G, Pandis N, Kyriazoglou I, Gustafson P, Mertens F, Mandahl N (1999) Recurrent t(16;17)(q22;p13) in aneurysmal bone cysts. Genes Chromosomes Cancer 26:265–266PubMedCrossRef

Oliveira AM, Hsi BL, Weremowicz S, Rosenberg AE, Dal Cin P, Joseph N et al (2004) USP6 (Tre2) fusion oncogenes in aneurysmal bone cyst. Cancer Res 15(64):1920–1923CrossRef

Oliveira AM, Perez-Atayde AR, Inwards CY, Medeiros F, Derr V, Hsi BL, Gebhardt MC, Rosenberg AE, Fletcher JA (2004) USP6 and CDH11 oncogenes identify the neoplastic cell in primary aneurysmal bone cysts and are absent in so-called secondary aneurismal bone cysts. Am J Pathol 165:1773–1780PubMedPubMedCentralCrossRef

Oliveira AM, Perez-Atayde AR, Dal Cin P, Gebhardt MC, Chen CJ, Neff JR, Demetri GD, Rosenberg AE, Bridge JA, Fletcher JA (2005) Aneurysmal bone cyst variant translocations upregulate USP6 transcription by promoter swapping with the ZNF9, COL1A1, TRAP150, and OMD genes. Oncogene 24:3419–3426PubMedCrossRef

Guseva NV, Jaber O, Tanas MR, Stence AA, Sompallae R, Schade J, Fillman AN, Miller BJ, Bossler AD, Ma D (2017) Anchored multiplex PCR for targeted next-generation sequencing reveals recurrent and novel USP6 fusions and upregulation of USP6 expression in aneurysmal bone cyst. Genes Chromosomes Cancer 56:266–277PubMedCrossRef

Šekoranja D, Boštjančič E, Salapura V, Mavčič B, Pižem J (2018) Primary aneurysmal bone cyst with a novel SPARC-USP6 translocation identified by next-generation sequencing. Cancer Gene Ther 228-229:12–16CrossRef

10.

Blackburn PR, Davila JI, Jackson RA, Fadra N, Atiq MA, Pitel BA, Nair AA, VanDeWalker TJ, Hessler MG, Hovel SK, Wehrs RN, Fritchie KJ, Jenkins RB, Halling KC, Geiersbach KB (2019) RNA sequencing identifies a novel USP9X-USP6 promoter swap gene fusion in a primary aneurysmal bone cyst. Genes Chromosomes Cancer 58:589–594PubMedCrossRef

11.

Šekoranja D, Zupan A, Mavčič B, Martinčič D, Salapura V, Snoj Ž et al (2020) Novel ASAP1-USP6, FAT1-USP6, SAR1A-USP6, and TNC-USP6 fusions in primary aneurysmal bone cyst. Genes Chromosomes Cancer 59:357–365.PubMedCrossRef

12.

Erickson-Johnson MR, Chou MM, Evers BR, Roth CW, Seys AR, Jin L, Ye Y, Lau AW, Wang X, Oliveira AM (2011) Nodular fasciitis: a novel model of transient neoplasia induced by MYH9-USP6 gene fusion. Lab Investig 91:1427–1433PubMedCrossRef

13.

Guo R, Wang X, Chou MM, Asmann Y, Wenger DE, Al-Ibraheemi A et al (2016) PPP6R3-USP6 amplification: novel oncogenic mechanism in malignant nodular fasciitis. Genes Chromosomes Cancer 55:640–649PubMedCrossRef

14.

Patel NR, Chrisinger JSA, Demicco EJ, Sarabia SF, Reuther J, Kumar E et al (2017) USP6 activation in nodular fasciitis by promoter-swapping gene fusions. Mod Pathol 30:1577–1588PubMedCrossRef

15.

Lam SW, Cleton-Jansen AM, Cleven AHG, Ruano D, van Wezel T, Szuhai K, Bovée JVMG (2018) Molecular analysis of gene fusions in bone and soft tissue tumors by anchored multiplex PCR-based targeted next-generation sequencing. J Mol Diagn 20:653–663PubMedCrossRef

16.

Lenz J, Michal M, Švajdler M, Ptakova N, Lenz D, Konecna P et al (2019) Novel EIF5A-USP6 gene fusion in nodular fasciitis associated with unusual pathologic features: a report of a case and review of the literature [published online ahead of print, 2019 Dec 26]. Am J Dermatopathol 10:1097

17.

Paulson VA, Stojanov IA, Wasman JK, Restrepo T, Cano S, Plunkitt J, Duraisamy S, Harris MH, Chute DJ, al-Ibraheemi A, Church AJ (2020) Recurrent and novel USP6 fusions in cranial fasciitis identified by targeted RNA. Mod Pathol 33(5):775–780PubMedCrossRef

18.

Flucke U, Bekers EM, Creytens D, van Gorp JM (2018) COL1A1 is a fusion partner of USP6 in myositis ossificans—FISH analysis of six cases. Ann Diagn Pathol 36:61–62PubMedCrossRef

19.

Švajdler M, Michal M, Martínek P, Ptáková N, Kinkor Z, Szépe P, Švajdler P, Mezencev R, Michal M (2019) Fibro-osseous pseudotumor of digits and myositis ossificans show consistent COL1A1-USP6 rearrangement: a clinicopathological and genetic study of 27 cases. Hum Pathol 88:39–47PubMedCrossRef

20.

Oliveira AM, Chou MM (2014) USP6-induced neoplasms: the biologic spectrum of aneurysmal bone cyst and nodular fasciitis. Hum Pathol 45:1–11PubMedCrossRef

21.

Paulding CA, Ruvolo M, Haber DA (2003) The Tre2 (USP6) oncogene is a hominoid-specific gene. Proc Natl Acad Sci U S A 100:2507–2511PubMedPubMedCentralCrossRef

22.

Jacquot C, Szymanska J, Nemana LJ, Steinbach LS, Horvai AE (2015) Soft-tissue aneurysmal bone cyst with translocation t(17;17)(p13;q21) corresponding to COL1A1 and USP6 loci. Skeletal Radiol 44:1695–1699PubMedCrossRef

23.

Bekers EM, Eijkelenboom A, Grünberg K, Roverts RC, de Rooy JWJ, van der Geest ICM, van Gorp JM, Creytens D, Flucke U (2018) Myositis ossificans—another condition with USP6 rearrangement, providing evidence of a relationship with nodular fasciitis and aneurysmal bone cyst. Ann Diagn Pathol 34:56–59PubMedCrossRef

24.

Meng Y, He Y, Zhang J, Xie Q, Yang M, Chen Y, Wu Y (2019) Association of GTF2I gene polymorphisms with renal involvement of systemic lupus erythematosus in a Chinese population. Medicine (Baltimore) 98(31):e16716CrossRef

25.

Arbajian E, Magnusson L, Mertens F, Domanski HA (2013) Vult von Steyern F, Nord KH. A novel GTF2I/NCOA2 fusion gene emphasizes the role of NCOA2 in soft tissue angiofibroma development. Genes Chromosomes Cancer 52(3):330–331PubMedCrossRef

26.

Tomić TT, Olausson J, Wilzén A, Sabel M, Truvé K, Sjögren H, Dósa S, Tisell M, Lannering B, Enlund F, Martinsson T, Åman P, Abel F (2017) A new GTF2I-BRAF fusion mediating MAPK pathway activation in pilocytic astrocytoma. PLoS One 12(4):e0175638PubMedPubMedCentralCrossRef

27.

Yan W, Li J, Zhang Y, Yin Y, Cheng Z, Wang J, Hu G, Liu S, Wang Y, Xu Y, Peng H, Zhang G (2019) RNF8 is responsible for ATRA resistance in variant acute promyelocytic leukemia with GTF2I/RARA fusion, and inhibition of the ubiquitin-proteasome pathway contributes to the reversion of ATRA resistance. Cancer Cell Int 19:84PubMedPubMedCentralCrossRef

28.

Panagopoulos I, Brunetti M, Stoltenberg M, Strandabø RAU, Staurseth J, Andersen K, Kostolomov I, Hveem TS, Lorenz S, Nystad TA, Flægstad T, Micci F, Heim S (2019) Novel GTF2I-PDFGRB and IKZF1-TYW1 fusions in pediatric leukemia with normal karyotype. Exp Hematol Oncol 8:12PubMedPubMedCentralCrossRef

29.

Pearson RC, Funnell AP, Crossley M (2011) The mammalian zinc finger transcription factor Krüppel-like factor 3 (KLF3/BKLF). IUBMB Life 63(2):86–93PubMed

30.

Chen X, Gao B, Ponnusamy M, Lin Z, Liu J (2017) MEF2 signaling and human diseases. Oncotarget 8(67):112152–112165PubMedPubMedCentralCrossRef

31.

Park I, Han C, Jin S, Lee B, Choi H, Kwon JT, Kim D, Kim J, Lifirsu E, Park WJ, Park ZY, Kim DH, Cho C (2011) Myosin regulatory light chains are required to maintain the stability of myosin II and cellular integrity. Biochem J 434(1):171–180PubMedCrossRef

32.

Zheng Q, Zhao Y (2007) The diverse biofunctions of LIM domain proteins: determined by subcellular localization and protein-protein interaction. Biol Cell 99(9):489–502PubMedCrossRef

33.

Caretti G, Schiltz RL, Dilworth FJ, Di Padova M, Zhao P, Ogryzko V et al (2006) The RNA helicases p68/p72 and the noncoding RNA SRA are coregulators of MyoD and skeletal muscle differentiation. Dev Cell 11(4):547–560PubMedCrossRef

34.

Germann S, Gratadou L, Zonta E, Dardenne E, Gaudineau B, Fougère M, Samaan S, Dutertre M, Jauliac S, Auboeuf D (2012) Dual role of the ddx5/ddx17 RNA helicases in the control of the pro-migratory NFAT5 transcription factor. Oncogene. 31(42):4536–4549PubMedCrossRef

35.

Lawrence B, Perez-Atayde A, Hibbard MK, Rubin BP, Dal Cin P, Pinkus JL, Pinkus GS, Xiao S, Yi ES, Fletcher CDM, Fletcher JA (2000) TPM3-ALK and TPM4-ALK oncogenes in inflammatory myofibroblastic tumors. Am J Pathol 157(2):377–384PubMedPubMedCentralCrossRef

36.

Warren M, Xu D, Li X (2017) Gene fusions PAFAH1B1-USP6 and RUNX2-USP6 in aneurysmal bone cysts identified by next generation sequencing. Cancer Gene Ther 212–213:13–18CrossRef

37.

McMichael BK, Kotadiya P, Singh T, Holliday LS, Lee BS (2006) Tropomyosin isoforms localize to distinct microfilament populations in osteoclasts. Bone 39:694–705PubMedCrossRef

38.

Pan H, Li X, Wang J, Zhang K, Yang H, Li Z, Zheng Z, Liu H (2015) LIM mineralization protein-1 enhances bone morphogenetic protein-2-mediated osteogenesis through activation of ERK1/2 MAPK pathway and upregulation of Runx2 transactivity. J Bone Miner Res 30:1523–1535PubMedCrossRef

39.

Pola E, Gao W, Zhou Y, Pola R, Lattanzi W, Sfeir C, Gambotto A, Robbins PD (2004) Efficient bone formation by gene transfer of human LIM mineralization protein-3. Gene Ther 11:683–693PubMedCrossRef

40.

Håkelien AM, Bryne JC, Harstad KG, Lorenz S, Paulsen J, Sun J, Mikkelsen TS, Myklebost O, Meza-Zepeda LA (2014) The regulatory landscape of osteogenic differentiation. Stem Cells 32:2780–2793PubMedCrossRef

41.

Fuller-Pace FV (1829) The DEAD box proteins DDX5 (p68) and DDX17 (p72): multi-tasking transcriptional regulators. Biochim Biophys Acta 2013:756–763

42.

Ma M, Huang DG, Liang X, Zhang L, Cheng S, Cheng B, Qi X, Li P, du Y, Liu L, Zhao Y, Ding M, Wen Y, Guo X, Zhang F (2019) Integrating transcriptome-wide association study and mRNA expression profiling identifies novel genes associated with bone mineral density. Osteoporos Int 30:1521–1528PubMedCrossRef

43.

Rosset EM, Trombetta-eSilva J, Hepfer G, Yao H, Bradshaw AD (2017) SPARC and the N-propeptide of collagen I influence fibroblast proliferation and collagen assembly in the periodontal ligament. PLoS One 12:e0173209PubMedPubMedCentralCrossRef

Titel: Novel partners of USP6 gene in a spectrum of bone and soft tissue lesions
verfasst von: Mélanie Legrand
Marie-Lise Jourdan
Anne Tallet
Christine Collin
Virginie Audard
Frédérique Larousserie
Sébastien Aubert
Anne Gomez-Brouchet
Corinne Bouvier
Gonzague de Pinieux
Publikationsdatum: 09.02.2021
Verlag: Springer Berlin Heidelberg
Erschienen in: Virchows Archiv / Ausgabe 1/2021
Print ISSN: 0945-6317
Elektronische ISSN: 1432-2307
DOI: https://doi.org/10.1007/s00428-021-03047-z

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Novel partners of USP6 gene in a spectrum of bone and soft tissue lesions

Abstract

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Molekularpathologische Untersuchungen im Wandel der Zeit

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